KR200423333Y1 - Damper for ventilation duct of building - Google Patents

Abstract

The present invention relates to a damper for a ventilation duct of a building, and according to the related art, as a result of separately manufacturing and installing a drain port for discharging water generated in a duct to the outside, an increase in the parts cost for installing the same and an additional work process are performed. There was a problem that it takes a long time to install the ventilation duct system.

Therefore, the present invention is installed between the duct (100a) and the duct (100b) for cooling, heating, air conditioning or ventilation of the building, the plurality of opening and closing plate 210 installed in the damper body 200 is a rotary knob 220 In forming a damper that is opened and closed to open and close the passage, the damper body 200 extends to one side, and a plurality of drain holes 230 are formed at the bottom of the extension part, and a drain hole is disposed below the drain hole 230. 241) and the drain port 240 consisting of the drainage passage cover 242 is integrally installed, and this proposal installs only the damper at the installation site by installing the drain port 240 integrally with the damper body 200 in the production plant. When the drain port 240 is obtained, the same effect can be obtained. Therefore, the work for installing the separate drain port 240 can be deleted, thereby reducing the parts cost and shortening the working time. to be.

Ventilation duct, damper body, drain hole, drain hole, drainage cover, drain port

Description

 Damper for ventilation duct of building

1 is a perspective view of a main part showing a state in which a drain port is separately installed between a conventional duct and a damper;

Figure 2 is a perspective view illustrating a damper in which the present invention is implemented

Figure 3 is a main part perspective view illustrating a state in which the damper is implemented according to the present invention is installed

Figure 4 is a plan view illustrating a damper in which the present invention is implemented

Explanation of symbols for main parts of the drawings

100a, 100b: Duct 101,201: Flange

200: damper body 210: opening and closing plate

220: rotation handle 230: drain hole

240: drain port 241: drain

242: drainage cover 300: silicon

The present invention relates to a damper for building ventilation ducts, and more particularly, to form a drain port integrally installed in the damper for discharging water generated in the duct, so that only the damper is installed at the installation site. It is to have a damper for a building ventilation duct that can reduce the cost of parts, as well as the work process by eliminating the work to install the drain port separately.

Generally, air conditioning is called air conditioning or air conditioning, which maintains the temperature, humidity, cleanliness, and average flow rate of indoor air suitable for room use, and excludes dust and harmful gases. Throughout the four seasons, the room is always kept in a proper condition and is recognized as both cooling and heating.

Such air conditioning can be broadly classified into pleasant air conditioning that provides a pleasant environment for people in the room, and industrial air conditioning that maintains the conditions suitable for the work handled by the room and its processing. As the temperature varies, the room temperature can be kept at a target value by sending low or high air to a hot or cold room, and clean air is sent when the concentration of dust or gas exceeds the allowable value when the humidity is high. .

Accordingly, a general method of such air conditioning is to install an air conditioner in the machine room that can change the air to various states, and move the necessary air to each room through the duct by using a blower.

On the other hand, some amount of water vapor always floats in the air, and the amount of water vapor increases when the temperature increases, and when the temperature decreases, the amount of water vapor decreases.

Accordingly, when cold air is sent to the duct for cooling the building, the temperature of the duct decreases, and water vapor floating in the air in the duct is reduced. You fall into the room.

Therefore, in order to prevent this, as shown in FIG. 1, a plurality of drain holes 32 are formed on the bottom surface to discharge water to the outside, and a drain passage cover 34 having a drain hole 33 formed under the drain holes 32. ) Is installed between the duct 10 and the damper 20 separately installed drain port 30, which is a problem as described in detail as follows.

first ; Conventionally, the drain port 30 is manufactured separately in a production plant and then moved to an installation site, which is installed by the worker one by one. That is, one side flange 31a of the drain port 30 is connected to the flange 11 of the duct 10. The other side flange 31b of the drain port 30 is installed to be in contact with the flange 21 of the damper 20. All of them have to be bolted together. This takes a long time there is a problem that takes a long time to install the entire ventilation duct system.

second ; Since water is easily leaked to the parts joined only by bolts, and noise caused by wind leaks out, all bolt coupling parts should be sealed by applying silicone, so if the drain port 30 is separately installed, the silicon work increases accordingly. The extra cost adds up to more work.

Therefore, the present invention is to solve the above problems, the purpose of the present invention is to install the drain port according to the installation site can be eliminated to install only the drain port in the installation site by installing the drain port integrally, without separately manufacturing the drain port It is to provide a damper for the ventilation duct of the building that can reduce the parts used in the construction, as well as the work time.

The present invention is installed between the duct and the duct for air conditioning and heating or ventilation of the building, a plurality of opening and closing plates installed inside the damper body to configure the damper to open and close the internal passage is opened and closed by the rotation knob, Extending the damper body to one side to form a plurality of drain holes in the bottom of the extension portion, it is achieved by integrally installing the drain port consisting of a drain hole and a drainage cover under the drain hole.

This design of the present invention is to install the damper in the production plant when the damper is integrally installed in the damper, so that only the damper can be installed as a function of the drain port, so only the damper is installed at the installation site, so the drain port installation work is eliminated. It is possible to reduce the cost of the components, as well as the work process is shortened so that the installation work of the entire ventilation duct system can be shortened by that, thereby achieving the above object effectively.

When described in detail with reference to the accompanying drawings the technical configuration and effect as a preferred embodiment that can effectively achieve the object of the present invention.

2 is a perspective view illustrating a damper according to the present invention, FIG. 3 is a perspective view illustrating a state in which a damper according to the present invention is installed, and FIG. 4 is a plan view illustrating a damper according to the present invention.

As illustrated in the present invention, the present invention is installed between the duct 100a and the duct 100b for cooling and heating air conditioning or ventilation of a building, and the plurality of opening and closing plates 210 installed inside the damper body 200 are handles with rotation. In configuring the damper to be opened and closed by the 220 to open and close the passage, the damper body 200 extends to one side to form a plurality of drain holes 230 at the bottom of the extension, the drain hole 230 The drain port 240 consisting of the drain port 241 and the drainage passage cover 242 is integrally installed in the lower portion. In the drawing, reference numeral 101 denotes a flange formed in the duct, and 201 is a damper body. Formed on the flange.

The present invention configured as described above is the same as the conventional installation of the drain port 240 so that the water generated in the ducts (100a) (100b) can be smoothly discharged to the outside according to the ambient temperature change.

However, a feature of the present invention is that the drain port 240 is not manufactured separately, it is possible to reduce the cost of the components used to install according to the integrated work to be installed in the damper can be deleted separately the work to install the drain port 240 separately Of course, the work process is reduced, so that the working time can be shortened.

That is, the present invention does not separately manufacture the drain port 240 as illustrated in FIG. 2, and directly installs the drain port 240 in the damper body 200. The drain port 240 controls air volume. In order not to interfere with the opening and closing plate 210, which is controlled by the rotation knob 220, the damper body 200 was formed to extend a predetermined length, and then a plurality of drain holes 230 were formed at the bottom of the extension part.

In addition, the drain hole 230 is provided with a drain port 240 formed of a drainage cover 242 having a drain hole 241 formed at one side thereof.

As such, when the drain port 240 is integrally installed on the damper body 200 in the production plant and only the damper is moved to the site, the operator may move the damper body between the duct 100a and the duct 100b as illustrated in FIG. 3. 200 is positioned so that the flange 101 of the duct (100a) (100b) and both flanges 201 of the damper body 200 is in close contact with the bolt assembly that the present invention is conventional drain port (30) By installing separately, the number of bolts can be remarkably reduced compared to the number of bolts used, and the cost of parts can be reduced, as well as the work process.

In addition, as the installation work process is reduced, the working area of silicon is also reduced, which in turn reduces component costs and shortens working time.

When the damper body 200 in which the drain port 240 is integrally installed is installed between the duct 100a and the duct 100b, the water generated in the ducts 100a and 100b flows into the damper body 200 and is bottomed. It is discharged to the outside through a hose (not shown in the figure) connected to the drain 241 formed in the drain cover 242 through the drain hole 230 of the surface.

In the present invention, when the drain port 240 is installed on the damper body 200, the drain port 240 is in close contact with the bottom surface of the damper body 200, and then the silicon 300 is used as shown in FIG. 4. By applying the edge of the drain cover 242, the sealing force is improved, there is no fear of water leakage.

As described above, the preferred embodiment of the present invention has been described, but the present invention can use various changes, modifications, and equivalents, and it is clear that the above embodiments can be appropriately modified and applied in the same manner. Therefore, the above description does not limit the scope of the present invention defined by the limitations of the following utility model registration claims.

As described above, the present invention does not separately manufacture the drain port installed to discharge the water generated in the duct, but is integrally installed in the damper, so that only the damper is installed in the installation site, which has the effect of installing the drain port. Therefore, it is a very useful design that can reduce the cost of parts and shorten the working time by eliminating the drain port installation work.

Claims (2)

Installed between the duct (100a) and the duct (100b) for cooling, heating, air conditioning or ventilation of the building, the plurality of opening and closing plate 210 installed inside the damper body 200 is opened and closed controlled by the rotary knob 220 inside In configuring the damper to open and close the passage of, Extending the damper body 200 to one side to form a plurality of drain holes 230 in the bottom of the extension, Ventilation duct damper of the building, characterized in that the drain hole 240 is formed integrally with the drain port 240 consisting of a drain hole 241 and the drainage cover 242. The method of claim 1, The drain port 240 is a damper for the ventilation duct of the building, characterized in that the bottom surface of the damper body 200 is sealed by the silicon (300) attached.

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